The novel gene<Emphasis Type="Italic"> CpEdi-9</Emphasis> from the resurrection plant<Emphasis Type="Italic"> C. plantagineum</Emphasis> encodes a hydrophilic protein and is expressed in mature seeds as well as in response to dehydration in leaf phloem tissues

The resurrection plant Craterostigma plantagineum Hochst. is used as an experimental system to investigate desiccation tolerance in higher plants. A search for genes activated during early stages of dehydration identified the gene CpEdi-9, which is expressed in mature seeds and in response to dehydration in the phloem cells of vascular tissues of leaves. Elements for the tissue-specific expression pattern reside in the isolated promoter of the CpEdi-9 gene, as shown through the analysis of transgenic plants. The CpEdi-9 promoter could be a suitable tool for expressing genes in the vascular system of dehydrated plants. CpEdi-9 encodes a small (10 kDa) hydrophilic protein, which does not have significant sequence homologies to known genes. The predicted protein CpEDI-9 shares some physicochemical features with LEA proteins from plants and a nematode. Based on the unique expression pattern and on the nucleotide sequence we propose that CpEdi-9 defines a new class of hydrophilic proteins that are supposed to contribute to cellular protection during dehydration. This group of proteins may have evolved because desiccation tolerance requires the abundant expression of protective proteins during early stages of dehydration in all tissues.Abbreviations ABA Abscisic acid - ABRE ABA-responsive element - Edi Early dehydration induced - GUS Glucuronidase - LEA Late embryogenesis abundant - MU Methylumbelliferone This article is dedicated to Prof. Dr. Francesco Salamini on the occasion of his 65th birthday and his departure from the Max Planck Institute in Köln